高相关氟化物KFeF3、KCoF3和KNiF3的电磁行为:阳离子效应的比较从头算研究

Sihem Filalli, N. Hamdad
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引用次数: 2

摘要

氟化物钙钛矿是目前用于自旋电子器件、光电和磁阻巨场的典型材料。由氟钙钛矿制成的太阳能电池对太阳能的未来很有希望。用从头算法研究了KFeF3、KCoF3和KNiF3氟化物的电子结构和磁性能。我们分析了(DFT)与DFT+U描述中的结构相、总电子密度和部分电子密度以及能带结构。通过集成三种类型的晶体结构(立方(Pm-3m),四层六边形(P6/mmc)和正交(Pnma)),我们展示了L(S)DA+U与L(S)DA在阳离子效应的比较研究中的电磁行为。平衡格与实验和理论数据吻合得很好。讨论了各相的磁矩。所得结果证实,这三种晶体结构均表现出铁磁行为。Hubbard参数U的引入增加了晶格参数和磁矩。我们推断第二阳离子在磁效应中起着重要的作用。L(S)DA+U正确地表明KFeF3、KCoF3和KNiF3为绝缘子。
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Electro-Magnetic Behavior of Highly Correlated Fluorides KFeF3, KCoF3 and KNiF3: A Comparative Ab-initio Study of Cation Effect
Abstract Fluorides-based perovskites are currently the typical materials being used in spintronic devices, optoelectronic and magneto-resistance colossal fields. Solar cells made of Fluoro-perovskite hold much promise for the future of solar energy. The electronic structure and magnetic properties of KFeF3, KCoF3 and KNiF3 Fluorides are studied using ab initio Calculation. We have analysed the structural phases, total and partial electronic densities and band structures within the (DFT) vs the DFT+U description. We show the Electro-Magnetic Behavior using L(S)DA+U vs L(S)DA in a comparative study of cation effect by integrating three types of crystal structures (Cubic (Pm-3m), Four-Layered Hexagonal (P6/mmc), and Orthorhombic (Pnma)). Equilibrium lattices agree very well with experimental and theoretical data. Magnetic moment of each phase is discussed. The obtained results confirmed that the three crystal structures invested here exhibit Ferromagnetic (FM) behavior. The introduction of the Hubbard’s parameter U increases lattice parameters and magnetic moment. We deduce that the second cation plays an important role in the magnetic effects. L(S)DA+U show correctly that KFeF3, KCoF3 and KNiF3 are insulators.
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